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 EXPLANATIONS OF THEIR PROPERTIES AND MANAGEMENT, THE SOILS TO. 
 
 WHICH THEY ARE APPLICABLE, AND THE PRECAUTIONS 
 TO BE OBSERVED IN THEIR USE. 
 
 ESPECIALLY ADAPTED TO THE WANTS OF PRACTICAL FARMERS. 
 
 BY JAMES HYATT, 
 
 CHEMIST OF THE MOUNT AIRY AGRICULTURAL INSTITUTE, 1s. 
 GERMANTOWN, PA. 
 
 PRINTED FOR THE INSTITUTE, 
 And for sale by J. W. Moors, 193 Chestnut Street, Philadelphia; Cuark & 
 Austin, 205 Broadway, New York; and at Bookstores ; 
 and Agricultural Warehouses generally. nae ; 
 Price 123 Cents. STAG Rt 
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LIME AND&MARL: 
 
 THEIR 
 
 AGRICULTURAL USES. 
 
 WITH 
 
 EXPLANATIONS OF THEIR PROPERTIES AND MANAGEMENT, THE SOILS TO 
 WHICH THEY ARE APPLICABLE, AND THE PRECAUTIONS 
 TO BE OBSERVED IN THEIR USE. 
 
 ESPECIALLY ADAPTED TO THE WANTS OF PRACTICAL FARMERS, 
 
 BY bA Miers HY ALT T, 
 
 CHEMIST OF THE MOUNT AIRY AGRICULTURAL INSTITUTE, 
 GERMANTOWN, PA. 
 
 —_—er1VvTtwr’— ses EE eee 
 
 PRINTED FOR THE INSTITUTE, 
 
 And for sale by J. W. Moorz, 193 Chestnut Street, Philadelphia; Crarx & 
 Austin, 205 Broadway, New York; and at Bookstores 
 and Agricultural Warehouses generally. 
 
 Price 12} Cents. 
 1848. 
 
ENTERED according to Act of Congress, in the year 1848, by 
 JAMES HYATT, 
 
 in the Clerk’s Office of the District Court of the Eastern District of Pennsylvania. 
 
 PHILADELPHIA? 
 T. K. AND P. G. COLLINS, PRINTERS. 
 
err er eee ge 
 
 FPL ET 
 
 PREFACE. 
 
 ee 
 
 No single substance, perhaps, has more extensively engaged 
 the attention of farmers, as a means of improving their soils, than 
 lime, including that admixture of it called marl ; and while it has, 
 in many instances, fulfilled the high expectations that have been 
 entertained of its beneficial effects, in other cases it has either 
 signally failed, or proved decidedly injurious. And it cannot be 
 denied, that, in general, much of the advantage which might have 
 resulted from its use, has been lost, from the want of a correct 
 understanding of the economy of its application. 
 
 Although the effects of lime are in some respects mechanical, 
 so that a portion of its influences are such as are derived from a 
 change in the ¢ezture of the soil, yet its principal office is to act 
 chemically upon various ingredients in soils; and, therefore, a 
 knowledge of its chemical properties is indispensable to its judi- 
 cious management. 
 
 The exhaustion of soils by the use of lime, and the unfavorable 
 results from the injudicious use of lime in a caustic state, having 
 produced, with many, a distrust of its valuable properties, it is 
 desirable that the means of avoiding such effects, without losing 
 
 _the advantages to be gained by its proper use, should be gene- 
 
 > rally understood. 
 
 x 0 
 
 It has been with a view to give greater publicity to those facts 
 
 ~ and principles which, indicated by theory, have been thoroughly 
 ching tried and established by practice, that the writer has consented 
 ~ to undertake a task, which, although it may entitle him to little 
 <~eredit, in the field of originality, may at least show his disposition 
 r to be useful, in the dissemination of that knowledge of which, 
 
 LQ Ay 
 
 h54530 
 
vi PREFACE. 
 
 heretofore, the great farming interest has been in some degree 
 deprived. 
 
 In order to obtain the information necessary to a complete un- 
 derstanding of the properties of lime, and to an enlightened and 
 judicious application of it to the soil, it has been necessary to pro- 
 cure extended treatises on agriculture or on manures, from which, 
 what facts they contained, generally quite incomplete, could only 
 be gleaned by much labor and care ; so that such information has 
 been, for the most part, where it was not to be had by all. 
 
 Whatever more attainable publications have been issued, have 
 either been in such a shape as not to have obtained general 
 attention, or the time that has elapsed, and the improvements 
 that have been made, since their publication, have detracted 
 somewhat from their value. The observations on lime, made in 
 our agricultural journals, are so much scattered through the dif- 
 ferent numbers, and even if collected, are wanting in so many 
 particulars, and need so much arrangement, as to form a serious 
 obstacle to one desirous of knowing all that should be known on 
 this subject. 3 
 
 It has been thought, therefore, that a treatise, in which every- 
 thing essential should be embodied, in a form requiring no tire- 
 some search, and the cost of which should be no impediment to 
 its general perusal, might be of service to the Agricultural world. 
 
CONTENTS. 
 
 INTRODUCTORY REMARKS. 
 
 PAGE 
 
 1. Objects of the treatise. 2. Attempted correctness. 3. References omitted. 
 4, Facts relating to use of lime not discordant. 5. Originality - - > 
 
 CHAPTER I. 
 
 6. Lime composed of calcium and oxygen. 7. Chemical name. 8. How 
 obtained, purity. 9. Lime is alkaline. 10. Its attraction for water. 11. 
 Absorbs carbonic acid from the air. 12. Loses its caustic property, increasing 
 in weight. 13. Different uses of the word lime. 14. Correct definition. 
 15. Unites with acids; composition of gypsum and bone earth. 16. Other 
 acids expel the carbonic from limestone. How lime is detected in soils. 
 17. Quantity of water necessary to dissolve lime and limestone. Limestone 
 soluble in water containing carbonic acid. 18. What marl is—properties, 
 characteristic. 19. How marl may be known. 20. Other meanings of the 
 word marl—how used in this treatise. 21. Value of marl, how determined. 
 How affected by other substances besides carbonate of lime. Importance 
 of phosphates. What organic matter is. Its proportion in soils, &c., how 
 determined - - - - - - - - - - - - 10 
 
 CHAPTER II. 
 
 22. Lime useful on all soils not calcareous. 23. Peats, clays, exhausted lands, 
 soils containing copperas, and those wanting potash and lime, most benefit- 
 ed by liming. 24. Liming sometimes not indispensable. How little may 
 suffice, 25. Liming profitable on fertile soils. Makes other manures the 
 more necessary. 26. The increased production remunerates~ - - - 13 
 
 CHAPTER III. 
 
 27, Large quantities required on clays and peats. 28. Smaller quantities on 
 exhausted lands. Must be no deficiency in organic matter. 29. Quantity 
 where lime only is wanting. 30. How much is taken off by crops, &c. 
 
 31. Less is required if caustic, more if mild. 32. Quantities used in a 
 liberal system of farming. Precaution. Soil may become saturated. 33. 
 Influence of the kind of crop, and texture of thesoil. 34. How much marl 
 is proper, how determined. Effect of the sand, clay, and organic matter - 15 
 
 CHAPTER IV. 
 
 35. Frequent and small applications best. If too much is used, there is a 
 loss. 36. Comparative expense of frequent and infrequent limings. Once 
 in each rotation best. - - - - - - : > - - 16 
 
 CHAPTER V. 
 
 37, Lime must be used in a fine state of division, and so maintained. 38. 
 Crushing and grinding sometimes preferred. 39, Marls to be dried and pul- 
 verized by exposure. 40. Burning and over burning. Air slacking gene- 
 rally preferable. Water slacking when preferred. Becomessomewhat mild 
 by spontaneous slacking. 41, 42. Why water should be used cautiously in 
 slacking. Wet lime forms mortar in the soil. Proper quantity of water. 
 43. Caustic lime preferable only on soils containing too much inactive or- 
 ganic matter. Partially mild lime equally useful. 44. Fully mild, eventu- 
 ally as effective ; why not so injurious? 465, Lime does not show its effects 
 the first year. 46. Trifling saving in the labor of the application of caustic 
 lime. 47. Comparative intrinsic value of caustic and of mild lime—when to 
 be considered. 48. Injurious effects of caustic lime on most soils ; on seeds; on 
 
 9 
 
Vill CONTENTS. 
 
 PAGE 
 
 clays. 49. Composting lime more economical—why. 50, Caustic lime 
 injurious in connection with nitrogenized manures. 51, Objection not ap- 
 plicable to mild lime. How the escape of ammonia may be impeded. 52. ° 
 Decomposition of organic matter better produced by fermentation. 53. 
 Fixers of ammonia not reliable in connection with caustic lime. Carbonate 
 of lime as effective in neutralizing acids. 54. Caustic lime more liable to 
 loss by being dissolved. Carbonate sufficiently soluble by means of the con- 
 tained carbonic acid - - . - : - : - - : 
 
 CHAPTER VI. 
 
 55. Depositing the unslacked lime in small heaps on the land, condemned. 
 56. Advantages of scattering with a machine. 57. Lime should be kept 
 near the surface--why. 58. When it may be more deeply incorporated. 
 o9. Time of the application - - - - - : ° . - 
 
 CHAPTER VII. 
 
 60. Caustic lime must not be brought in contact with seed. 61. Nor with 
 nitrogenized manure. 62. Wet lime injurious. 63. Also unslacked lime. 
 64. Wet lands must be drained. 65. Liming must be connected with or- 
 ganic manuring. 66. Lime cannot supply the want of other manures. 67. 
 It must be applied a year previous to the crop which it is to effect. 68. 
 Certain soils must be sparingly limed. 69. Magnesian limestone must not 
 be used as a source of lime. 70, Different effects of claying, and of sandy 
 marls. 71. Lime injures flax - - - - . - - - - 
 
 CHAPTER VIII. 
 
 72. Lime improves the texture of some soils. 73. Is required by plants. 
 74, Promotes decomposition and supplies aliment. 75. Neutralizes acids. 
 76. And affords carbonic acid. 77. Eradicates sorrel. 78. Decomposes sul- 
 phates of iron, magnesia and alumina. 79. Is useful on new lands, and in 
 subsoils. 80. Destroys insects. 81. Particularly benefits certain crops. 82. 
 Improves their quantity and quality. Prevents “running to straw,” and de- 
 stroys rust and fungus. 83. Improves pastures, stock, and the dairy pro- 
 ducts. 84. Is useful with inorganic manures. ‘Too much ammonia not to 
 be feared - - - - - - - - - - - ° 
 
 CHAPTER IX. 
 
 85. Limestone lands often deficient inlime. 86. Reason. 87. Other sources. 
 88. Soils formed from the disintegration of granitic rocks, greatly wanting 
 in lime. 89. Those from sienitic rocks considerably so. 90. Greenstone 
 soils contain a greater abundance, 91. While those from serpentine are 
 also deficient. 92. Slates and sandstones vary in their composition. Use 
 of mineralogy and geology. 93. Other substances containing either lime, or 
 its metallic base. 94. These may supply lime to plants, though not afford- 
 ing it in its most available form for certain effects. 95. Lime found in com- 
 bination with vegetable acids. 96. Marls formed from shells—ultimately 
 from limestone. 97. And sometimes from other sources. Why marl is an 
 economical source of lime. And is incapable of producing either the bene- 
 ficial or the injurious effects of caustic lime. Chemical analysis generally 
 not to be attempted by farmers—why. A knowledge of chemistry highly 
 necessary. The farmer is'a practical chemist. All necessary knowledge 
 
 readily attainable, and destined to become more generally diffused —- - 
 Notrrt A. Exact chemical composition of lime, its hydrate and carbonate. 
 
 Quantity of water for slacking - - - - - - - - 
 Nore B. How the proportion of lime in a soil is determined - . - 
 Notes C. The simple elements of soils and plants - - : 
 
 Nore D. Injurious effects of magnesia in connection with lime—why. How 
 magnesia in limestone may be detected, and the proportion determined. How 
 to estimate the amount of certain foreign substances in limestone - - 
 
 17 
 
 21 
 
 22 
 
 23 
 
THE 
 
 AGRICULTURAL USES 
 
 OF 
 
 LIME AND MARL. 
 
 INTRODUCTORY REMARKS. 
 
 In view of the great importance of lime in Agriculture, of the 
 gross errors often committed in its use, and of the general bene- 
 fits to be obtained by its right application, the writer of this treat- 
 ise will endeavor to point out the circumstances in connection 
 with which it may be judiciously applied, as well as to refer to 
 those in which it will be useless or hurtful. He proposes, also, 
 to attempt an explanation of the mode of its action, the reasons 
 of its usefulness, and the natural and artificial sources of its 
 supply. 
 
 2. In order that this exposition might be correct, if possible, in 
 every particular, so as to lead none into error, and that it should 
 be entitled to the attention of practical men, everywhere, much 
 Jabor and thought have been bestowed upon it. It will be found, 
 perhaps, to consist, not of the experience of a single individual, 
 nor of the speculations of a hasty theorist, but to embody the re- 
 sults of the observations of sound and successful farmers, in this 
 and in other countries, and to be in accordance, also, with the 
 true principles of Agricultural Chemistry. 
 
 3. And as to be useful, this exposition must be brief, it has 
 been thought advisable to omit statements of actual results, and 
 particular cases, confining the observation to those general prin- 
 ciples that are well established, and that, taking modifying cir- 
 cumstances in account, are worthy of universal adoption. 
 
 4, Fortunately, the testimonies in regard to the use of lime, 
 are most complete and harmonious ;—the proofs are abundant, 
 and are not at variance with each other. 
 
10 WHAT LIME IS COMPOSED OF. 
 
 5. It must be anticipated that very little of what is new, or 
 original, can be introduced into this essay, for the subject has 
 occupied the attention of both theoretical and practical men for 
 so long a time, and to such an extent, that the chief labor of the 
 writer has consisted, rather in collecting, comparing, and arrang- 
 ing facts, from a variety of sources, than in making observations 
 and experiments. He thinks it sufficient to mention, that, having 
 the opportunities, he has freely availed himself of the experience 
 and investigations of those who have interested themselves in 
 Agriculture, in this country and in Europe. 
 
 CHAPTER I. 
 
 THE COMPOSITION AND PROPERTIES OF LIME. 
 
 6. Lime is composed of two simple bodies, of which one is a 
 shining white metal called Calcium, and the other is a gas, exist- 
 ing abundantly in both air and water. This gas is called Oxygen. 
 
 7. Lime, therefore, is a compound of calcium and oxygen, 
 called Oxide of Calcium. And as chemists have found that cal- 
 cium may be artificially combined with twice the proportion of 
 oxygen that is invariably found in lime, they partially distinguish 
 between these two oxides, by calling lime Protozide of Calcium, 
 that is, the first oxide. 
 
 8. Lime is well known to be obtained by heating limestone, 
 marble, chalk, shells, etc., to a very high bright red heat. These 
 substances are chiefly composed of lime, united with carbonic 
 acid; and the heat merely drives off the acid in the form of gas. 
 Obtained thus, freshly burned, lime is often called guicklime, and 
 is pure if obtained from pure white marble ; otherwise it contains 
 variable proportions of other substances, such as flint, oxide of 
 iron, magnesia, etc. 
 
 9. Lime possesses, though in an inferior degree, the distinctive 
 chemical properties of potash and soda ; that is, it has a biting, 
 or burning taste, and changes vegetable blue colors to a green, 
 so that it is an alkaline substance. 
 
 10. The attraction of lime for water and for acids is very 
 powerful; for on being exposed to the atmosphere, though in 
 
ITS CHANGES AND PROPERTIES. 1l 
 
 large lumps, it attracts about one-third of its own weight of wa- 
 ter, and spontaneously slacks, or is converted into what is called 
 a hydrate, a finé dry powder. 
 
 11. When the lime is thus combined with water, the carbonic 
 acid of the air acts upon it, and rapidly driving off one-half of 
 the water and taking its place, diminishes the caustic property of 
 the lime, and renders it somewhat mild, adding still more to its 
 weight. 
 
 12. After this, the same action continues, though very slowly, 
 until the carbonic acid has expelled all the water, and the lime 
 has entirely lost its caustic property, and is rendered mild carbon- 
 ate of lime, being in the same condition in which it was before 
 being burned, except that it is in powder. It is now about one 
 and three-fourths times as heavy as when taken from the kiln, and 
 its bulk is also much increased, being often more than doubled. 
 (See note A.) 
 
 13. What ordinarily goes by the name of lime, may, tiferethre! 
 be in any one of the four following states. Ist. Unalaekedt lime, 
 quicklime, or that freshly burned. 2d. Caustic lime, or hydrate 
 of lime,—-such as is obtained by slacking quicklime with water. 
 3d. Air slacked lime, which is generally partly a hydrate, and 
 partly a carbonate. 4th. Carbonate of lime, or that which has 
 become fully mild by the absorption of carbonic acid, and pos- 
 sesses no caustic nor alkaline property. 
 
 14. The word lime correctly used, means that which is called 
 quicklime, in its pure and fresh state. 
 
 15. Lime possesses an attraction not only for carbonic acid, 
 but for acids generally, and is found in nature combined with 
 sulphuric, nitric, phosphoric, silicic, oxalic, and other acids. 
 Lime united with sulphuric acid and water, constitutes gypsum, 
 or plaster; and with phosphoric acid it forms the earthy part of 
 bones, a phosphate of lime. | 
 
 16. Almost all acids, including common vinegar, are capable 
 of driving off carbonic acid from carbonate of lime. They then 
 take its place. This furnishes one method of detecting the pre- 
 sence of carbonate of lime in soils, for by pouring vinegar, or 
 some other dilute acid upon the suspected substance, if carbonic — 
 acid be present it will be set free, giving rise to an effervescence 
 or foaming, such as we see in a glass of soda-water. As car- 
 bonic acid is not often considerably combined with any other 
 
12 ITS SOLUBILITY.—MARL—PROPERTIES. 
 
 substance than lime, in soils, the foaming is usually a reliable 
 proof of the presence of carbonate of lime. (See nofe B.) 
 
 17. The hydrate of lime requires nearly eight hundred times 
 its weight of water at the temperature of 60° to dissolve it, and 
 still more at higher temperatures. Mild carbonate of lime re- 
 quires more than ten thousand times its weight of pure water to 
 dissolve it. Butif the water contain carbonic acid, as is generally 
 the case with spring water, the limestone or carbonate dissolves 
 more freely.* 
 
 18. Marl contains from ten to ninety per cent. of carbonate of 
 lime or mild lime, with variable proportions of sand, clay, and 
 animal, vegetable, and other matter. It is a substance which 
 greatly varies in its appearance and properties. It is often an 
 earthy matter that, when dry, readily falls into powder. Its 
 characteristic, however, is that it contains lime in the mild form. 
 
 19. When any substance is suspected to be marl, or to contain 
 it, the matter may be determined by pouring vinegar, or some 
 other dilute acid upon it, when if the effervescence or foaming, 
 before mentioned, ensues, it may be considered that carbonate of 
 lime is present. 
 
 20. It is proper to mention, however, that the term marl is 
 sometimes used to denote any fertilizing earthy matter, and has 
 been applied to a substance rich in potash, found in some locali- 
 ties, which is also a valuable manure; but the writer, in his use 
 of the word, will consider mar] to be a mixture of carbonate of 
 lime with other substances, as first explained. 
 
 21. The value of any specimen of mar] may in general be esti- 
 mated by the amount of the effervescence which ensues, on pour- 
 ing vinegar or muriatic acid upon it; or may be more accurately 
 determined by a chemical analysis, which shows the proportion of 
 carbonate of lime, though; if the analysis show all the ingredients 
 and their proportions, it is more useful. Marls frequently con- 
 tain, also, a small proportion of phosphate of lime. Phosphates 
 are highly useful in all soils, and add, therefore, to the value of the 
 marl. Whatever organic matter, that is, whatever animal or vege- 
 table substance, the marl contains, will, for most purposes, increase 
 its value. The quantity of organic matter may be determined by 
 burning the marl at a dull red heat. The loss in weight is the 
 
 * The sulphate of lime, or gypsum, is soluble in 430 times its weight of water, 
 at common temperatures, 
 
THE SOILS MOST BENEFITED BY LIME. 13 
 
 weight of the organic matter; for organic matter is that which, 
 having been deposited by some plant or animal, disappears again, 
 or goes off in the form of gas, when burned. The admixture of 
 sand or clay in marl, may add to its value or not, according as 
 these substances prevail in the soil to which the marl is to be 
 applied. 
 
 CHAPTER Ii. 
 
 OF THE SOILS ON WHICH LIME IS USEFUL. 
 
 22. Lime may be advantageously applied, in proper quantities, 
 and under proper circumstances, to all soils, except to marly and 
 calcareous ones, that is, except to those which already contain up- 
 wards of 5 or 6 per cent. of carbonate of lime, and in certain cases, 
 even, to some of these. 
 
 23. The lands which lime benefits in the greatest degree are 
 the following: | 
 
 Peaty soils and those which contain large quantities of vegeta- 
 ble matter ; 
 
 Clayey soils which are needed to be rendered more light, open, 
 and active ; 
 
 Lands that are worn out by long and exhausting culture ; 
 
 Soils sterile from the existence of green copperas (proto-sul- 
 phate of iron), in considerable quantities ; 
 
 Soils wanting potash ; 
 
 And those which are found to be deficient in the quantity of 
 lime necessary for its supply to the growing crops. 
 
 On other soils, lime may often be profitably employed according 
 to their mechanical condition and chemical composition, and to 
 the expense of liming ; as will be hereafter explained. 
 
 24. Those soils which contain a proper proportion of the different 
 other mineral ingredients necessary to fertility, together with sufh- 
 cient organic matter, and which are of the right mechanical struc- 
 ture, as to mellowness, being neither too compact nor too open, 
 may need no application of lime, for a long series of years, 
 although the percentage of lime in them is very small. Chemi- 
 cal analyses have shown, that soils known to be fertile without 
 
14 LIME ON FERTILE SOILS. 
 
 manures,* may contain no more than one five-hundredth part of 
 lime: for then, though the proportion of lime is inconsiderable, 
 yet we learn by calculation that an acre of soil, six inches in 
 depth, will contain about a ton and a half of lime, undoubtedly 
 more than sufficient for the supply of rotations of crops for a quar- 
 ter of a century. 
 
 25. These fertile soils, however, which contain such small, and 
 even somewhat larger proportions of lime, may doubtless be made 
 to yield larger and surer crops, by its addition in considerable 
 quantities. The effects of lime on such soils are, with proper 
 management, altogether beneficial, notwithstanding that they 
 then require, besides the expense of liming, a more costly system 
 of manuring. The increased production that follows the liming 
 tends to exhaust the soil of its necessary ingredients, (see note 
 C,) and to destroy its fertile properties, so that while lime is con- 
 tinued to be applied, instead of supplying the place of other ma- 
 nures, it becomes necessary to be more liberal in their application. 
 The farmer who increases his crops, without increasing his ma- 
 nures, will soon render his soil barren. 
 
 26. All this extra labor and expense, however, will be amply re- 
 paid by the gain in production; for if there is any profit in raising 
 a light or a medium crop, on a piece of land, this profit rapidly 
 swells, as the same land is made to yield its heavier products.— 
 [t. would not be advisable that time and money should be lay- 
 ished in the injudicious and extravagant application of manures. 
 That which a farm is capable of yielding in the shape of animal 
 and vegetable manures, should be carefully husbanded, as well 
 as that which can be economically purchased and applied.— 
 And foreign substances in the shape of ashes, plaster, bone-dust, 
 or salt, of which the land may stand in absolute want, must be 
 procured. With care and good ‘judgment, in these matters, 
 such a soil as is referred to, may be limed with great advantage. 
 
 * By manure is meant any substance whatever added to a soil to increase its 
 fertility. 
 
QUANTITY OF LIME TO BE APPLIED, 15 
 
 CHAPTER III. 
 
 THE QUANTITY OF LIME TO BE APPLIED. 
 
 27. Own clayey and peaty soils, the application may be very 
 liberal: indeed little benefit is to be expected from the use of 
 lime on such soils, except in large quantities. From one hundred 
 to one thousand bushels an acre are used; and on these soils, there 
 is little to be feared from an over application. 
 
 28. On worn out lands, from ten to fifty bushels an acre, is a 
 sufficient quantity, and when the amount intended to be applied, 
 is nearer the larger of the above proportions, it is better that the 
 application should be divided into smaller parts, and repeated at 
 intervals, in the course of the rotation, or between the rotations. 
 On exhausted soils, particularly, it is necessary to see that there 
 is no deficiency in the organic elements, and to supply any such 
 deficiency in connection with the liming. 
 
 29, When a soil possesses every requisite of fertility, except 
 that lime is wanting, a first application of ten bushels to the acre, 
 and subsequent ones at the rate of two or three bushels an acre, 
 annually, are sufficient to supply the original want, and to furnish 
 as much to the soil as is taken off by the crops. 
 
 30. Applied at this rate of two or three bushels to an acre a 
 year, the quantity of lime necessary to the fertility of a soil, will 
 be supplied, with ordinary systems of rotation. But if those 
 crops only are cultivated which tend most to exhaust the lime 
 of a soil, greater quantities must be applied. Thus roots, as 
 potatoes, turnips, beets, &c., and clover, all in an eminent de- 
 gree, as well as grasses generally, exhaust the lime to a greater 
 extent, and require more plentiful applications. 
 
 31. The chemical condition of the lime is, however, always 
 to be considered, in determining the amount to be applied. When 
 slacked suddenly and used immediately, in the caustic state, 
 smaller quantities are required than those mentioned in this 
 treatise; while if the lime has lain for many months, thoroughly 
 exposed to the air so as to be entirely mild and carbonated, larger 
 quantities may safely be used. 
 
 32. When it is intended, by a liberal system of farming, to 
 
16 A SOIL MAY BECOME FILLED WITH LIME. 
 
 procure large and sure returns, and where lime or marl is to be 
 had at a moderate expense, medium quantities, say five to fifteen 
 bushels an acre, annually; that is, twenty to sixty bushels an 
 acre, for each rotation of four years, may be applied, with 
 great advantage, to soils already quite fertile, taking care that the 
 animal and vegetable portion of the soil is maintained undimin- 
 ished, by ploughing in green crops, or by alternating the appli- 
 cations of lime with those of yard, or other organic manure. But, 
 as common systems of cropping do not take as much lime from 
 the soil, as the larger of the above proportions would furnish, a 
 time will arrive, after a number of rotations, when the soil will 
 be filled with lime to such an extent, that the further use of it 
 would be either of no avail, or decidedly hurtful. ‘There can be 
 no utility in the application of lime to a soil which already contains 
 twelve or fourteen per cent. 
 
 33. The length of time before the soil will become saturated, 
 will depend, not only on the extent of the limings, and on the 
 nature of the crops, but also on the texture of the soil and subsoil. 
 A retentive texture will not permit the fine particles of lime so 
 readily to fall through it, nor will it allow of so great a waste, by 
 the solution and washing out of the lime. 
 
 34. In the application of marl, we are to be guided by the 
 proportions of its ingredients. Leaving out of view the sand or 
 clay, of the usefulness of which on his soils every intelligent 
 farmer is competent to judge, we have only to determine the 
 proportion of carbonate of lime in the marl, and then to apply 
 so much as will furnish the desired quantity of this ingredient. 
 Should the organic matter of the marl be considerable, larger 
 quantities may be applied on such soils as would be benefited 
 both by lime and by animal and vegetable matter. 
 
 CHAPTER IV. 
 FREQUENCY OF THE APPLICATIONS. 
 35. ALL experience has shown smaller and oftener repeated 
 
 applications, to be, by far, the most economical. The reasons 
 are, that the large quantities which are necessarily applied when 
 
LIME,—HOW OFTEN APPLIED. Fi 
 
 the intervals are long, are more likely to be injurious, and also, 
 that much of the effect of these is lost before it can be felt by the 
 crops, from its sinking through the soil, either in the solid state, 
 or dissolved by water. The economy of the custom, even, which 
 prevails in some countries, to apply heavy limings at long inter- 
 vals, so that a tenant may be able to avail himself of the full 
 effeer until quite spent, of a liming made at the commencement 
 of ike lease, is very questionable. 
 
 36. The expense of applying a given oe ie will of course 
 be less, if the whole be applied at once, instead of in divided 
 portions, at successive times; and this, together with the conse- 
 quent inconvenience, will, for the most part, prevent annual lim- 
 ings. An application once in each rotation, will generally be 
 found most judicious. 
 
 CHAPTER V. 
 
 THE PREPARATION OF THE LIME, AND THE STATE IN’ WHICH 
 IT SHOULD BE APPLIED. 
 
 37. Lime should be applied in the finest possible state of 
 division, and under such circumstances as to be maintained in 
 this condition. 
 
 38. Where it is to be applied in the mild form, it may, in some 
 locations, be more economically procured in this form, by crushing 
 and grinding limestone, chalk, shells, &¢. This method may be 
 preferred where fuel for burning is expensive, and power for 
 crushing is more available. Calcareous shells and coral sands, 
 which occasionally occur, are suitable for direct application. 
 
 39. Marls in general, need to be drawn out and exposed, so 
 as to be dried, and often, by the action of the weather to be pul- 
 verized, before being spread. Many marls do not become sufh- 
 ciently pulverized until both the heat of summer and the frosts 
 of winter have acted upon them. 
 
 40. But where fuel is abundant, limestone, shells, ete., may 
 be more conveniently prepared for pulverization by burning.* 
 
 * When limestone containing much flint is used, it is liable to be over-burned by too 
 high a temperature, so as to be rendered inactive. 
 
 2 
 
18 THE SLACKING,—HOW TO BE MANAGED. 
 
 The subsequent slacking, or combination of the quicklime with 
 water, to form the hydrate, may be accomplished either by ex- 
 posure to the atmosphere, or by the direct application of water ; 
 the latter method being preferable, only when it is desired, by 
 the rapidity of the process, to prevent the recombination of the 
 lime with carbonic acid, so as to obtain and apply it in its hot or 
 caustic state. Spontaneous slacking is less troublesome, and, 
 except in the case just mentioned, equally advantageous. 
 
 When slacked by exposure to the atmosphere, though ex- 
 amined immediately after the lumps have completely fallen into 
 powder, the lime will be found carbonated to a very considerable 
 extent. 
 
 41. When slacked by the direct method, in the more rapid 
 way, the water should be applied very gradually, otherwise there 
 will be many small lumps, and the process will be neither so 
 rapid nor so complete. 
 
 42. Care should also be taken that the quantity of water used 
 be not so great as to bring the slacked lime, or hydrate, to the state 
 of a paste ; enough only being applied to complete the slacking, 
 and to reduce the lime to fine dry powder. The amount of water 
 required is, what will weigh about one-third as much as the lime. 
 (See note A.) If used in a wet state, lime is liable to unite with 
 substances in the soil, and form a mass that sets, and becomes 
 hard like mortar. It is evident, that inattention to these particu- 
 lars may diminish the benefits to be expected, or may result in 
 positive injury. 
 
 43. As to the question whether lime should be used in its 
 caustic or in its mild form, it may be observed, that caustic lime 
 is preferable only on soils where there is too great an abund- 
 ance of inactive vegetable matter, and on those in which organic 
 manure lies unchanged and ineffective ; the partially mild lime, 
 obtained by spontaneous slacking, being equally useful in all other 
 cases, for this certainly, if applied soon after being slacked, still 
 contains enough caustic lime to produce all such effects as may 
 be thought necessary. 
 
 44. Indeed, it is generaly admitted that pulverized chalk, or 
 burned lime which has become fully carbonated, is, in all cases, ex- 
 cept in the above, equally effective and scarcely more slow in its 
 action. Mild lime is also less liable to injure either the texture of 
 the soil, or its chemical properties, while it does not exhaust to 
 
WHETHER CAUSTIC OR MILD LIME IS PREFERABLE. 19 
 
 the extent that caustic lime does, by causing a greater loss of vege- 
 table matter than is required or taken up by the growing crops. 
 
 45. The more rapid and more effective action of caustic lime 
 may well be questioned, in view of the observed fact that the 
 results of its application are seldom seen the first year, so that 
 before this influence is exerted, it probably has time to become 
 fully mild. 
 
 46. It is true, that the expense of applying the quantity requi- 
 site to produce a given effect may be something less, if applied 
 in the caustic state, because, when fully carbonated, it is about 
 one-fifth heavier than the same amount of lime, in the form of 
 hydrate. This difference, however, is not so great as it has 
 generally been estimated, for the carbonate has erroneously been 
 compared with unslacked lime, a form in which it is never advisa- 
 ble that lime should be applied. 
 
 47. The only cases in which it is necessary to take into ac- 
 count the really considerable difference, both in bulk and in 
 weight, between unslacked lime and the carbonate (See note A). 
 are in the purchase, and in carting from the kiln. Unslacked 
 lime, pound for pound, or bushel for bushel, is really worth a 
 great deal more than the fully carbonated, or even than the re- 
 cently air-slacked article; so that, if sold at the same price, the 
 lime burners would make a large profit, by allowing their lime to 
 be exposed to the air, and the purchaser would waste his money 
 in buying and carting gas and vapor, which he could have in 
 abundance at home, for nothing. 
 
 48. The trifling saving in the mere application of pure caustic 
 lime, would not compensate for its injurious tendencies, on all 
 soils, except on the peaty, the mucky, on those exceedingly rich 
 in vegetable matter, and on those in which yard manure lies inact- 
 ive. In fact, unless there is so much organic matter that it be- 
 comes desirable to dissipate it, the application of completely car- 
 bonated lime is generally more safe and judicious, while the 
 use of lime, as soon as it can be air-slacked, especially in a 
 moist atmosphere, being then still somewhat caustic, will be 
 about as effective in all cases, and in most be altogether prefera- 
 ble to the use of caustic lime. Besides, caustic lime should not be 
 used in contact with seeds or herbage. On clays, also, the use 
 of caustic lime must tend rather to injure than to improve the 
 
 » 
 
20 CAUSTIC LIME NOT TO BE USED WITH SOME MANURES. 
 
 texture of the soil; with carbonate of lime there is not the same 
 liability to the formation of a mortar that cakes and hardens. 
 
 49. By composting lime with five or six times its bulk of earth, 
 a considerable saving may generally be made, particularly where 
 lime is expensive. The more complete manner in which it may 
 afterwards be incorporated with the soil, renders a smaller quan- 
 tity equally efficacious. This composting is no doubt always 
 best, except on peats, and is greatly preferable on light sandy 
 soils, in which the use of lime might otherwise prove of little 
 avail. 
 
 50. Although it may seem to conflict with the theory of a 
 celebrated chemist, it must, nevertheless, be said that both science 
 and judicious practice tell us, that the use of lime which is at all 
 caustic, in compost heaps, in connection with animal and vege- 
 table matter, and especially in composts of yard manure and 
 urine, is decidedly injurious. He who desires to husband his 
 resources, and to have early matured, and large crops of grain, 
 or seeds of any kind, should not mix caustic lime, either in the 
 compost heap, or wm the soul, with yard manure, urine, guano, 
 night-soil, or with any manure containing nitrogen; for it is well 
 known that caustic lime expels ammonia (the form which nitrogen 
 generally takes in these manures) from its combinations. | 
 
 51. This objection does not apply to lime that is completely 
 carbonated, but as air-slacked lime does not become entirely 
 carbonated, without long exposure, much care is requisite in this 
 matter, unless, indeed, means be used, as is sometimes done, to 
 prevent the escape of whatever ammonia may be liberated. A 
 covering for the compost heap of moist muck, or clayey soil, or 
 the incorporation of these substances in the heap, may serve this 
 purpose to a greater or less extent, whenever it is determined to 
 use caustic lime. ; 
 
 52. Still the decomposition of organic matter, for which, 
 alone, caustic lime need be used in the compost heap, may be 
 produced in other ways, and particularly by fermentation. Thus 
 the liability to loss of the ammonia, may be avoided. 
 
 53. Iiven the use of such fixers of ammonia as gypsum and 
 copperas, cannot be depended upon in connection with caustic 
 lime, though these agents are quite reliable under other circum- 
 stances. In the muck heap, besides, carbonate of lime is just as 
 effective for neutralizing such vegetable acids as are likely to be 
 
 / 
 
APPLICATION WITH A MACHINE, ETC. 21 
 
 injuriously present. Here, therefore, caustic lime need not be 
 employed. 
 
 54. There are still other objections to the use of lime in a 
 caustic state. The hydrate of lime being about thirteen times 
 more soluble than the carbonate, there is greater liability to its 
 loss by washing out, from the action of water, and heavy rains; 
 while the small proportion of carbonic acid present in the moist- 
 ure of a soil, dissolves both hydrate and carbonate, to a sufficient 
 extent to furnish plants with their lime. The fact that carbonic 
 acid is less abundant in the heavy rains which are more liable to 
 result injuriously, gives additional force to the opinion, that 
 caustic lime is more liable to waste than that which is mild. 
 
 CHAPTER VI. 
 
 MODE OF APPLICATION AND STATE OF THE SOIL. 
 
 55. When the quantity applied is quite small, broadcast sowing 
 is most common, but with larger proportions, shoveling from the 
 cart, or depositing in heaps and subsequent spreading, is resorted 
 to. The plan of drawing the unslacked lime out on the land, 
 and depositing it in small heaps to slack, is not considered as 
 profitable as previous slacking. 
 
 56. Inasmuch as the equal distribution of the lime is a very 
 essential matter, and as the sowing and spreading are both la- 
 borious and unpleasant, the use of a machine for these purposes, 
 becomes a matter not only of convenience, but of great economy. 
 There can be no less troublesome means of distributing the lime, 
 and none so effectual in securing a uniform application, in any 
 desired proportion. 
 
 57. There is no doubt that lime should be kept on, or near the 
 surface, so that whatever ploughing or harrowing is resorted to 
 in order to incorporate it with the soil, should be as shallow as 
 possible. The beneficial effects of lime depend very considerably 
 on the assistance which is rendered by the carbonic acid of the 
 atmosphere, and of the light rains, and besides, lime sinks down- 
 ward, by being dissolved, and from the fineness of its division, 
 by all movements of the particles of the soil produced by the 
 
22 HOW LIME MAY BE USELESS OR INJURIOUS. 
 
 stirring of implements and rains. We may therefore calculate 
 that it will produce all desirable effects below the surface » though 
 not deeply incorporated with the soil. 
 
 58. When, however, lime is cheap, the application is large, 
 there is vegetable atter to be decomposed and acids to be neu- 
 tralized, and when more rapid effects are desired, such a concur- 
 rence of circumstances would warrant a more deep incorporation, 
 though even then it should not be wholly turned from the surface. 
 
 59. On pastures, lime is sown, or very thinly spread; on 
 fallows, but more especially in Jarge quantities on peaty soils 
 and stiff clays, it may be applied before breaking up with the 
 plough; but on cultivated fertile soils, the smaller application 
 commonly made, is best applied immediately before the last 
 harrowing. 
 
 CHAPTER VII. 
 
 PRECAUTIONS IN THE USE OF LIME. 
 
 Many of the facts belonging under this head have been before 
 referred to; but it may be advisable that the whole should be 
 here included. 
 
 60. Highly caustic lime should not be introduced into direct 
 contact with seed, in the hill or drill. 
 
 61. Caustic lime should not be applied with yard manure, nor 
 with any of the before-mentioned manures which contain nitrogen. 
 Very coarse unfermented matter is not so liable to be injured by 
 it, especially if covered with earth or muck, so that the liberated 
 gases may be absorbed. 
 
 62. Lime should not be used in a wet state; nor should water 
 be too rapidly applied in slacking it. | 
 
 63. Unslacked lime should not be applied. 
 
 64. On wet lands, unless the liming is preceded by draining, 
 little benefit can be expected. 
 
 65. Care should be taken to maintain a sufficient amount of 
 organic matter in the soil, for liberal liming and cropping would 
 otherwise render it bares 
 
 66. It must be borne in mind that lime can never Sipply the 
 
MODES OF ITS OPERATION. 93 
 
 place of other manures. Jt cannot furnish sulphuric acid like 
 gypsum, nor phosphoric acid like bones, guano, yard manure, 
 and some marls, nor chlorine and sodium like common salt. 
 Lime may assist to set potash free from substances in the soil, 
 but where there is no potash, it cannot furnish it like ashes. 
 
 67. As its action is not immediate, whenever it is desired that 
 lime shall affect a particular crop, it should be applied at least a 
 year previous. 
 
 68. The liming of shallow, of dry, and of light sandy soils should 
 be very moderate. Small applications only are required, or are 
 advantageous on worn out soils, as well as on fertile ones. 
 
 69. The presence of magnesia, in any considerable quantity, 
 being considered unfavorable to vegetation, and more especially 
 in connection with lime, care must be observed that the lime is 
 not obtained from magnesian limestone. (See note D.) 
 
 70. Clayey marls are best on sandy soils, and sandy marls on 
 clays. The contrary course may sometimes be injurious, as well 
 as the excessive use of any marl. 
 
 71. As lime is thought to injure the strength of the fibre of 
 flax, it should not be applied so as to unfavorably affect this crop. 
 
 CHAPTER VIII. 
 BENEFICIAL EFFECTS OF LIME, AND THE MANNER OF ITS OPERATION. 
 
 72. Lime acts both mechanically and chemically : mechani- 
 cally, from its loose open nature, it renders clayey and heavy soils 
 more light, diminishes their tenacity, assists the passage of water 
 through them, and thus renders their tillage less difficult ; its 
 other effects are mostly chemical. 
 
 73. Lime being so universally found in the ashes of plants, 
 we must conclude that it is necessary to their healthy growth, and 
 therefore, if absent, or nearly so, in soils, it must be supplied. 
 
 74. It assists the decomposition of organic matter, and is, there- 
 fore, beneficial where this matter is abundant or inert. The 
 rotting of sward turned in, and of bogs, is considered to be pro- 
 moted by caustic lime. By undergoing this decomposition, organic 
 matter is converted into food for plants. 
 
24 HOW LIME MAY BE USEFUL. 
 
 75. It neutralizes, and combines with the acids which are in- 
 jurious in soils, and especially abundant in peats and mucks. In 
 combination with some of these acids, it is more soluble, and is, 
 therefore, more readily taken up to supply the wants of plants. 
 
 76. When it combines with these acids, it yields up its car- 
 bonic acid, which may be absorbed by roots, and thus the growth 
 of the crop may be materially promoted. ‘These compounds of 
 lime with vegetable acids may be gradually decomposed, so as 
 to furnish further food for plants, while the lime again takes the 
 form of carbonate, and thus runs a perpetual round of usefulness. 
 
 77. Lime is capable of converting oxalate of potash or salt of 
 sorrel, into insoluble oxalate of lime, and may thus prevent the 
 growth of sorrel. 
 
 78. Green copperas, or proto-sulphate of iron, which is present 
 in some soils, materially impairing their fertility, is decomposed 
 by lime, gypsum being formed, and the iron becoming peroxidized, 
 is made useful, instead of remaining hurtful. A similar decom- 
 position of sulphate of magnesia and sulphate of alumina is ad- 
 vantageously promoted by lime. | 
 
 79. From its effects on the vegetable acids, and on other de- 
 leterious substances, which are often present in subsoils, and in 
 those brought for the first time under cultivation, the application 
 of lime to these is generally found highly advantageous. 
 
 80. The application of caustic lime may sometimes assist in 
 the destruction of insects. 
 
 81. Lime may be expected to benefit potatoes, turnips and red 
 clover, which require larger quantities of it. Potatoes are ren- 
 dered more mealy by liming. The tops, which contain the largest 
 proportion of the lime, should not be wasted. 
 
 82. It is acknowledged that lime improves the quality of the 
 grain crops, so that the seed is thinner skinned, and furnishes 
 more and better flour. The crops of peas and beans are bene- 
 fited both in quantity and quality. It diminishes the tendency to 
 the formation of too much straw, assists to give inflexibility to 
 the straw, so that the crop will stand more firmly, and by tending 
 to prevent the formation of rust and fungus, diminishes the unfa- 
 vorable effects of wet seasons. 
 
 83. According to the most reliable experience, lime, on many 
 pasture lands, improves the quality both of the grasses and of the 
 products of the dairy. ‘The butter and cheese are better, and it 
 
LIMESTONE LAND MAY LACK LIME. 95 
 
 is admitted that the stock feeding on limed pastures, is improved 
 in health and general condition; though caustic lime may often 
 be injurious, and especially to young stock. 
 
 84, The application of lime to composts of muck and of vege- 
 table matter generally, will have an excellent effect; but mild 
 lime is preferable for this purpose, especially when matters con- 
 taining nitrogen are added to the heap. Whatever may be the 
 quantity of ammonia, either in the soil or in the atmosphere, it is 
 not so great that we. must drive it out of our manure heaps 
 by the use of caustic lime. We need not fear an undue propor- 
 tion of this most necessary aliment of cultivated crops, but should 
 rather endeavor, particularly as it costs no considerable labor, to 
 husband this, as well as all other substances that are capable of 
 assisting the growth of plants. 
 
 CHAPTER IX. 
 
 THE SOURCES OF LIME, AND THE SOILS WHICH NATURALLY CONTAIN 
 IT, OR ARE DEFICIENT. 
 
 85. Tuat marl, shell sand, chalk, shells, limestone, marble 
 and coral, contain lime, and are both the natural and artificial 
 sources of it, is well known.* Soils associated with limestone 
 rocks, frequently contain a considerable portion of lime; but it-has 
 been noticed that, though resting upon limestone or chalk, or even 
 abounding in shells, or in loose masses or pebbles of limestone, 
 they are sometimes almost totally destitute of lime in such a form 
 as to be useful, that is, in a fine state of division. 
 
 86. This, doubtless, is accounted for by supposing the soil to 
 have been derived from other sources than these rocks, and from 
 the fact, that the firm texture of the shells or pebbles has, as yet, 
 prevented their crumbling so as to form a part of the available 
 soil. Hence, it often arises that liming proves advantageous on 
 what are called limestone lands. 
 
 87. Besides these enumerated sources, known to be abundant 
 
 * The sea shore, and lands adjoining, in some localities, abound in a shell or a 
 coral sand, which being rich in carbonate of lime, is a valuable manure. 
 
26 STATE AND SOURCES OF LIME IN SOILS. 
 
 in lime, there are rocks which, without being principally com- 
 posed of it, yet contain it in considerable quantities, while there 
 are others in which it is entirely wanting. 
 
 88. The granitic rocks, including gneiss and mica slate, are 
 either destitute of lime, or contain it in very small proportions. 
 Soils derived from these rocks will, therefore, contain little lime, 
 and be capable of improvement by larger or smaller quantities, 
 according as clay or sand may predominate in them. 
 
 89. The sienitic rocks, often included among the granites, con- 
 tain a somewhat larger proportion of lime, and the derived soils 
 will be of similar composition. On these soils, doubtless, lime 
 may generally be employed with advantage. 
 
 90. Greenstone rocks and soils contain a more liberal propor- 
 tion of lime, and stand in less need of its application. In some, 
 this proportion is probably sufficient. 
 
 91. The serpentine rocks furnish little or no lime to the soils 
 which are derived from them ; liming is, therefore, indispensable 
 with these soils. 
 
 92. The slates and sandstone vary so much in their composition, 
 that no general rules can here be given that will indicate, with 
 much certainty, the proportion of lime in soils derived from them ; 
 some are destitute of lime, while others contain considerable 
 proportions. 
 
 A knowledge of the principles of mineralogy and geology will 
 greatly assist the farmer in judging of the constituents and pro- 
 perties of soils, from knowing those of the rocks with which they 
 are associated ; while the same knowledge will show him that it is 
 necessary, when forming his opinion from geological and mineralo- 
 gical data, to consider whether the soil has been derived from the 
 surrounding or underlying rocks, or whether it is a drift from 
 some other locality, and of a different origin. 
 
 93. There are also minerals which contain lime, though not in 
 the form of carbonate, but combined with other acids. And the 
 lime of sienitic rocks is in combination with silicic acid, called 
 flint, constituting silicate of lime, while phosphate of lime exists 
 in small proportions in all fertile soils. Sulphate of lime also, 
 known as gypsum, or plaster, is extensively used in many dis- 
 tricts. Chloride of calcium, as well as the fluoride, are natural 
 substances, which, though containing no lime, have one of its 
 elements, calcium, for their base, and this may, by natural causes, 
 
MARLS,—HOW DEPOSITED— WHERE FOUND. 27 
 
 be converted into lime. The nitrate of lime which exists to some 
 extent, is also a valuable salt. 
 
 94. These substances may become the source of lime to plants, 
 though they are to some extent incapable of the sort of influence 
 exerted by carbonated or caustic lime, in assisting the decompo- 
 sition of organic matter, in neutralizing vegetable acids, and in 
 preparing, in the way that lime does, the food of plants. They 
 may be looked upon, however, as highly useful substances, capa- 
 ble of supplying to some extent the want of lime in the other forms. 
 
 95. The existence of lime in soils, in combination with vege- 
 table acids, has been referred to, as well as the important pur- 
 poses which it then serves. ‘These organic compounds of lime 
 are dependent somewhat on the pre-existence of caustic lime or 
 the carbonate. In the application of lime to muck, they are 
 generally formed in considerable quantities. 
 
 96. Marls are for the most part formed from deposits of fresh 
 water shells, in lakes and ponds, the animals having secreted the 
 carbonate of lime of these shells from the water in which they 
 lived. These ponds being formed from water passing through 
 limestone, have derived their carbonate of lime from that source, 
 as waterimpregnated with carbonic acid is a solvent of limestone. 
 In some cases the water itself directly deposits the carbonate of 
 lime. ‘The shells, or the earthy matter containing them, are often 
 afterward covered by a subsequent layer of peat or muck—or 
 are more or less mingled with such vegetable matter as these 
 ponds fill up into marshes. To swamps, then, and especially in 
 the neighborhood of limestone rocks and ridges, we may look 
 for deposits of marl. 
 
 97. Marls have doubtless sometimes been formed by the crum- 
 bling of rocks containing carbonate, or perhaps, silicate of lime. 
 It therefore happens that marls are found in hill and mountain 
 masses. 
 
 Marl, whenever it is abundant, as it requires neither crushing 
 nor burning, generally affords the most economical means by 
 which lime can be applied to soils. And as the lime in marl is 
 not caustic, but mild, none of the precautions mentioned in regard 
 to the use of caustic lime, need be observed with it; nor can 
 those beneficial effects that only follow caustic lime be expected 
 from marl. 
 
 Having now stated the most important facts connected with the 
 
28 THE FARMER A PRACTICAL CHEMIST. 
 
 use of lime, the writer feels constrained to bring his remarks to a 
 close. He has not thought it advisable to enter upon the details 
 for determining the exact proportion of lime in soils. 
 
 Chemical analyses, though well worthy the attention of farmers, 
 and though entered upon by some who take interest in such mat- 
 ters, will not be attempted, to much extent, by them. The scien- 
 tific knowledge, the taste, the time, and the apparatus and che- 
 micals, can never be generally possessed, while those who wish 
 to engage in these investigations will find that works which treat 
 solely on chemistry and chemical analyses, are not only more 
 profitable than anything that could be included in this small 
 treatise, but are absolutely indispensable to success. 
 
 Nevertheless, there is no species of knowledge that can be of 
 more use to the farmer than chemistry. This science is con- 
 nected with almost all agricultural operations, and the farmer is 
 a practical chemist on a most extensive scale, but often, greatly 
 to his loss, destitute of a knowledge of the chemical agents which 
 he employs, and of the laws which govern their action. Every 
 enterprising farmer, however, who entertains a just opinion of the 
 value of scientific knowledge, will soon take such steps to secure 
 its benefits, as will give him a great advantage over his more 
 plodding neighbors. Inexpensive and easily understood books 
 are to be had on all the sciences which interest the farmer. And 
 so great now, are the facilities for obtaining such knowledge, that 
 none, either young or old, need be destitute of it. 
 
 It is to be hoped that with the means now enjoyed, and likely 
 still to be increased, the day is not far distant, when in our common 
 schools, chemistry, mineralogy, geology, and botany, will be 
 considered studies equally as necessary as reading, writing, and 
 arithmetic; and when no person will be thought to have a common 
 education, unless he understand the general principles of natural 
 science. 
 
APPENDIX. 99 
 
 NOTE A. 
 
 Tae equivalent or lowest combining proportion by weight of calcium is 20; that 
 of oxygen is 8; of carbon 6; and of hydrogen is 1. Therefore the composition of 
 lime and its compounds is as follows :-— 
 
 20 parts by weight of calcium 
 one “« | ‘oxygen, form 
 
 aoa." “e lime, or quicklime. 
 
 6 parts of carbon, and twice eight or 
 
 ha oxygen, form 
 
 22 carbonic acid. And 
 
 22 & carbonic acid unite with 
 
 235% lime, and form 
 
 50 - carbonate of lime, or mild lime, which contains then only 28 of pure 
 
 lime. Also 
 a oxygen, united with 
 
 8 
 1 part of hydrogen, form 
 9 
 
 parts of water. And 
 
 Sine ot water unite with 
 ao 4 pure lime to form 
 are * hydrate of lime, or caustic lime, containing 2$ parts of pure lime. 
 
 These numbers, 9 of water and 28 of quicklime, represent the proper proportion of 
 water for slacking, but!as lime frequently contains impurities, # of its weight of 
 water, which is something less than the true proportion, will generally be sufficient, 
 especially as we may depend upon the atmosphere to furnish any deficiency. 
 
 NOTE B. 
 
 Ir is no difficult matter for one who is ingenious, and has some knowledge of the 
 principles of chemistry, to determine the proportion of lime ina soil. It is only 
 necessary to digest a weighed portion in dilute muriatic acid, to add ammonia in 
 slight excess to the clear solution, and then to precipitate the lime with oxalate of 
 ammonia. The oxalate of lime may then be collected, dried, and weighed. Accord- 
 ing to the accuracy with which the process is managed, will the proportion of lime 
 be determined, 
 
30 APPENDIX. 
 
 NOTE C. 
 
 The simple elements, which are present in fertile soils, and which, in some of 
 their forms of combination, may be considered necessary to the growth of plants, 
 are the following :—potassium, sodium, calcium, magnesium, aluminum, iron, man- 
 ganese, silicon, sulphur, phosphorus and chlorine. These are mostly combined with 
 oxygen, when they form, respectively, potash, soda, lime, magnesia, alumina, oxide 
 of iron, oxide of manganese, silicic acid, sulphuric acid, phosphoric acid, and chloric 
 acid. The chlorine, however, instead of being combined with oxygen, is found 
 united with some of the metals, forming chloride of potassium, chloride of sodium, 
 or common salt, chloride of calcium, etc. 
 
 Besides these, plants require hydrogen, nitrogen and carbon, which are furnished 
 to them, for the most part, in the respective forms of water, ammonia and carbonic 
 acid, and which may be derived, either from the earth, or from the atmosphere. 
 
 NOTE D. 
 
 Magnesian limestones are generally of a yellow color, yet as some other lime- 
 stones sometimes have the same hue, color does not serve to distinguish between 
 them. A small proportion of magnesia, say one to three per cent., such as is often 
 found in limestones, is not sufficient to be injurious. But when the proportion be- 
 comes as great as thirty-five to forty-five per cent.,it gives to the lime the properties 
 of a hydraulic cement, so that, in a wet state of the soil, it will harden, forming firm 
 grains and lumps, and will remain in that condition, undergoing little change. 
 
 Besides, caustic magnesia never becomes completely carbonated by exposure to 
 the air, and if slacked with water, it remains entirely caustic, and in this state it 
 would undoubtedly be injurious to vegetation. 
 
 When the presence of magnesia is suspected in limestone, the matter may be 
 determined by dissolving the limestone in dilute muriatic acid, and dropping clear 
 lime water into the filtered solution. If the solution becomes turbid, by the forma- 
 tion of a white precipitate, magnesia is present, and using sufficient lime water to 
 separate the magnesia, it will all fall in fine powder to the bottom. In this way, the 
 proportion of magnesia may be roughly estimated. 
 
 This process of dissolving limestone in dilute cold muriatic acid, may also serve to 
 show the proportion of silex, or flint, oxide of iron, and other insoluble matters in it. 
 Whatever remains undissolved, after a day’s exposure to a sufficient quantity of the 
 acid, cannot be limestone. 
 
 Chemical analyses of soils, ores, mineral waters, etc., will be undertaken by the 
 author of this treatise, and information given in regard to whatever is connected 
 with the science. For particulars, address James Hyatt, care of John Wilkinson, 
 Germantown, Pa. 
 
APPENDIX. 31 
 
 MOUNT AIRY AGRICULTURAL INSTITUTE. 
 
 THIs INSTITUTION Is LocaTED at Mount Airy, Germantown, Pa., seven miles 
 from the city of Philadelphia, and is accessible several times a day by both stage 
 and railroad. : 
 
 Tuer site is proverbial for its salubrity, and is, in every respect, eminently 
 adapted to the objects of an Agricultural Seminary. 
 
 Young men may here enjoy unusual opportunities for acquiring a knowledge of 
 Scientific and Practical Agriculture, with the use of the best modern farm imple- 
 ments and machinery. 
 
 Instruction is given in the ordinary branches of an English Education, and in 
 Book-Keeping, Mathematics and the Physical Sciences. 
 
 Natural Philosophy, particularly Mechanics, Hydraulics and Pneumatics, and 
 their connection with the construction of implements, and the movement of ma- 
 chinery, as well as Practical Chemistry, and its relation to Agriculture, receive spe- 
 cial attention. 
 
 Surveying, Trigonometry and Mensuration, with the use of instruments, field- 
 practice and Mapping, will be thoroughly taught. 
 
 THE PRACTICAL FACILITIES Which the Institution has the means of affording, 
 cannot be surpassed. There are seventy acres of tillable land which has been for 
 years under a highly judicious method of cultivation. The farm being that, so fa- 
 vorably known to the Agricultural community, recently occupied by James Gowen, 
 Esq. 
 
 The students engage directly in all that is connected with every description of 
 crop to which the climate isadapted. There being an abundance of fruit, and or- 
 namental trees and nurseries on the premises, their care and management occupy 
 much attention. The gardens, the exotic plants and the shrubbery, are such as to 
 afford the advantages of instruction in Horticulture and Floriculture. 
 
 Particular attention is given to the management and breeding of Domestic Ani- 
 mals. The farm supports a large herd, and the students are expected to have the 
 most complete knowledge of all that is connected with such particulars. 
 
 A Lisrary of American and European works, and the Agricultural journals of 
 the country, are furnished for the reading of the students. 
 
 The nature of the Institution is such, that here, free from circumstances that are 
 repulsive, and from influences that are immoral, in a location attractive and health- 
 ful, on extensive grounds, and surrounded by whatever can incite to study, to exer- 
 tion, and to ennobling employment, students may, by the assistance of competent 
 and experienced teachers, with whom they are associated as members of the same 
 family, enjoy the most desirable opportunities, and prepare themselves to occupy 
 respectable and useful positions in society. 
 
 The year is divided into two sessions ; the first session beginning on the first Thursday of 
 April, the second on the first Thursday of October. 
 
 Terms $100 per Session, payable in advance—including bed, bedding, washing , mend- 
 ing, fuel and lights. 
 
 This sum embraces all charges for instruction in the subjects referred to; it 
 does not include incidentals, but at the option of the Principal. 
 Address the Principal, 
 JOHN WILKINSON, 
 
 Mounr Arry Acricutturat InstitutE GERMANTOWN, Pa. 
 
32 APPENDIX. 
 
 REFERENCES. 
 Rospert Ewrne, Esq., Philad., Pa. Ex-Gov. Wm. C. Gisss, Newport, R. I. 
 Prof. Jno. Frost, — Gro. Vait, Esaq., Troy, N. Y. 
 Tuomas H. Jacoss, s C. N. Bement, Esq., Albany, N. Y. 
 
 Gro. W. Donsrn, Esa., Baltimore, Md. B. P. Jonnson, Esa., “ 
 Gen. Wm. H. Ricnarpson, Richmond, Va. Rosert Fartey, Boston, Mass. 
 
 Judge Tuomas Batrzett, Florida. Hon. Samuet WI.pE, Fe 
 
 ZEBEDEE Cook, Ese., New York. Hon. Wm. J. Hussarp, “ 
 
 Tuos. M’Exnats, Esa. “ Hon. Francis O. Warts, “ 
 
 Isaac C. Kennatt, Esa, “ R. W. Crooxsuank, Esq., St. Johns, N. 
 Rev. Freprrick A. Fanrtey, Brooklyn. Brunswick. 
 
 Hon. Atrrep Conxii1ne, Auburn, N. Y. 
 
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